# Difference between revisions of "99 questions/11 to 20"

Line 65: | Line 65: | ||

== Problem 14 == |
== Problem 14 == |
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− | <Problem description> |
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+ | (*) Duplicate the elements of a list. |
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<pre> |
<pre> |
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Example: |
Example: |
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− | <example in lisp> |
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+ | * (dupli '(a b c c d)) |
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+ | (A A B B C C C C D D) |
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Example in Haskell: |
Example in Haskell: |
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− | <example in Haskell> |
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+ | > dupli [1, 2, 3] |
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+ | [1,1,2,2,3,3] |
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</pre> |
</pre> |
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Solution: |
Solution: |
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<haskell> |
<haskell> |
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− | <solution in haskell> |
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+ | dupli [] = [] |
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+ | dupli (x:xs) = [x,x] ++ dupli(xs) |
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</haskell> |
</haskell> |
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− | |||

− | <description of implementation> |
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== Problem 15 == |
== Problem 15 == |

## Revision as of 07:32, 12 December 2006

These are Haskell translations of Ninety Nine Lisp Problems.

If you want to work on one of these, put your name in the block so we know someone's working on it. Then, change n in your block to the appropriate problem number, and fill in the <Problem description>,<example in lisp>,<example in Haskell>,<solution in haskell> and <description of implementation> fields.

## Problem 11

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 12

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 13

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 14

(*) Duplicate the elements of a list.

Example: * (dupli '(a b c c d)) (A A B B C C C C D D) Example in Haskell: > dupli [1, 2, 3] [1,1,2,2,3,3]

Solution:

```
dupli [] = []
dupli (x:xs) = [x,x] ++ dupli(xs)
```

## Problem 15

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 16

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 17

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 18

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>

## Problem 19

(**) Rotate a list N places to the left.

Hint: Use the predefined functions length and (++).

Examples: * (rotate '(a b c d e f g h) 3) (D E F G H A B C) * (rotate '(a b c d e f g h) -2) (G H A B C D E F) Examples in Haskell: *Main> rotate ['a','b','c','d','e','f','g','h'] 3 *Main> rotate ['a','b','c','d','e','f','g','h'] (-2)

Solution:

```
rotate [] _ = []
rotate l 0 = l
rotate (x:xs) (n+1) = rotate (xs ++ [x]) n
rotate l n = rotate l (length l + n)
```

There are two separate cases:

- If n > 0, move the first element to the end of the list n times.

- If n < 0, convert the problem to the equivalent problem for n > 0 by adding the list's length to n.

## Problem 20

<Problem description>

Example: <example in lisp> Example in Haskell: <example in Haskell>

Solution:

```
<solution in haskell>
```

<description of implementation>